WORK, ENERGY AND POWER 163If friction is present, then work is done overcoming
the resistance due to friction and this is dissipated
as heat. Then,
Initial energy=final energy+work done overcoming
frictional resistanceKinetic energy is not always conserved in collisions.
Collisions in which kinetic energy is conserved
(i.e. stays the same) are calledelastic collisions,
and those in which it is not conserved are termed
inelastic collisions.
Problem 22. A car of mass 800 kg is
climbing an incline at 10°to the horizontal.
Determine the increase in potential energy of
the car as it moves a distance of 50 m up the
incline.With reference to Figure 14.10,
sin 10°=opposite
hypotenuse=h
50,from which, h=50 sin 10°= 8 .682 m.
h
50 m10 °Figure 14.10
Hence, increase in
potential energy=mgh=800 kg× 9 .81 m/s^2× 8 .682 m=68140 J or 68 .14 kJProblem 23. At the instant of striking, a
hammer of mass 30 kg has a velocity of
15 m/s. Determine the kinetic energy in the
hammer.Kinetic energy=^12 mv^2 =^12 (30 kg)(15 m/s)^2i.e.kinetic energy in hammer=3375 Jor 3 .375 kJProblem 24. A lorry having a mass of 1.5 t
is travelling along a level road at 72 km/h.
When the brakes are applied, the speed
decreases to 18 km/h. Determine how much
the kinetic energy of the lorry is reduced.Initial velocity of lorry,v 1 =72 km/h= 72km
h× 1000m
km×1h
3600 s=72
3. 6=20 m/s,final velocity of lorry,v 2 =18
3. 6=5m/sandmassoflorry,m= 1. 5 t=1500 kgInitial kinetic energy of the lorry=^12 mv^21 =^12 ( 1500 )( 20 )^2 =300 kJFinal kinetic energy of the lorry=^12 mv^22 =^12 ( 1500 )( 5 )^2 = 18 .75 kJHence,the change inkinetic energy= 300 − 18. 75 = 281 .25 kJ(Part of this reduction in kinetic energy is converted
into heat energy in the brakes of the lorry and is
hence dissipated in overcoming frictional forces and
air friction).Problem 25. A canister containing a
meteorology balloon of mass 4 kg is fired
vertically upwards from a gun with an initial
velocity of 400 m/s. Neglecting the air
resistance, calculate (a) its initial kinetic
energy, (b) its velocity at a height of 1 km,
(c) the maximum height reached.